export const description = `
copyTextureToTexture tests.
`;

import { makeTestGroup } from '../../../../../common/framework/test_group.js';
import { kTextureUsages, kTextureDimensions } from '../../../../capability_info.js';
import {
  kAllTextureFormats,
  kCompressedTextureFormats,
  kDepthStencilFormats,
  textureFormatAndDimensionPossiblyCompatible,
  getBlockInfoForTextureFormat,
  getBaseFormatForTextureFormat,
  canCopyFromAllAspectsOfTextureFormat,
  canCopyToAllAspectsOfTextureFormat,
  ColorTextureFormat,
} from '../../../../format_info.js';
import { kResourceStates, AllFeaturesMaxLimitsGPUTest } from '../../../../gpu_test.js';
import { align, lcm } from '../../../../util/math.js';
import * as vtu from '../../validation_test_utils.js';

class F extends AllFeaturesMaxLimitsGPUTest {
  testCopyTextureToTexture(
    source: GPUTexelCopyTextureInfo,
    destination: GPUTexelCopyTextureInfo,
    copySize: GPUExtent3D,
    expectation: 'Success' | 'FinishError' | 'SubmitError'
  ): void {
    const commandEncoder = this.device.createCommandEncoder();
    commandEncoder.copyTextureToTexture(source, destination, copySize);

    if (expectation === 'FinishError') {
      this.expectValidationError(() => {
        commandEncoder.finish();
      });
    } else {
      const cmd = commandEncoder.finish();
      this.expectValidationError(() => {
        this.device.queue.submit([cmd]);
      }, expectation === 'SubmitError');
    }
  }

  getPhysicalSubresourceSize(
    dimension: GPUTextureDimension,
    textureSize: Required<GPUExtent3DDict>,
    format: GPUTextureFormat,
    mipLevel: number
  ): Required<GPUExtent3DDict> {
    const { blockWidth, blockHeight } = getBlockInfoForTextureFormat(format);
    const virtualWidthAtLevel = Math.max(textureSize.width >> mipLevel, 1);
    const virtualHeightAtLevel = Math.max(textureSize.height >> mipLevel, 1);
    const physicalWidthAtLevel = align(virtualWidthAtLevel, blockWidth);
    const physicalHeightAtLevel = align(virtualHeightAtLevel, blockHeight);

    switch (dimension) {
      case '1d':
        return { width: physicalWidthAtLevel, height: 1, depthOrArrayLayers: 1 };
      case '2d':
        return {
          width: physicalWidthAtLevel,
          height: physicalHeightAtLevel,
          depthOrArrayLayers: textureSize.depthOrArrayLayers,
        };
      case '3d':
        return {
          width: physicalWidthAtLevel,
          height: physicalHeightAtLevel,
          depthOrArrayLayers: Math.max(textureSize.depthOrArrayLayers >> mipLevel, 1),
        };
    }
  }
}

export const g = makeTestGroup(F);

g.test('copy_with_invalid_or_destroyed_texture')
  .desc('Test copyTextureToTexture is an error when one of the textures is invalid or destroyed.')
  .paramsSubcasesOnly(u =>
    u //
      .combine('srcState', kResourceStates)
      .combine('dstState', kResourceStates)
  )
  .fn(t => {
    const { srcState, dstState } = t.params;

    const textureDesc: GPUTextureDescriptor = {
      size: { width: 4, height: 4, depthOrArrayLayers: 1 },
      format: 'rgba8unorm',
      usage: GPUTextureUsage.COPY_SRC | GPUTextureUsage.COPY_DST,
    };

    const srcTexture = vtu.createTextureWithState(t, srcState, textureDesc);
    const dstTexture = vtu.createTextureWithState(t, dstState, textureDesc);

    const isSubmitSuccess = srcState === 'valid' && dstState === 'valid';
    const isFinishSuccess = srcState !== 'invalid' && dstState !== 'invalid';
    const expectation = isFinishSuccess
      ? isSubmitSuccess
        ? 'Success'
        : 'SubmitError'
      : 'FinishError';

    t.testCopyTextureToTexture(
      { texture: srcTexture },
      { texture: dstTexture },
      { width: 1, height: 1, depthOrArrayLayers: 1 },
      expectation
    );
  });

g.test('texture,device_mismatch')
  .desc(
    'Tests copyTextureToTexture cannot be called with src texture or dst texture created from another device.'
  )
  .paramsSubcasesOnly([
    { srcMismatched: false, dstMismatched: false }, // control case
    { srcMismatched: true, dstMismatched: false },
    { srcMismatched: false, dstMismatched: true },
  ] as const)
  .beforeAllSubcases(t => t.usesMismatchedDevice())
  .fn(t => {
    const { srcMismatched, dstMismatched } = t.params;

    const size = { width: 4, height: 4, depthOrArrayLayers: 1 };
    const format = 'rgba8unorm';

    const srcTextureDevice = srcMismatched ? t.mismatchedDevice : t.device;
    const srcTexture = t.trackForCleanup(
      srcTextureDevice.createTexture({
        size,
        format,
        usage: GPUTextureUsage.COPY_SRC,
      })
    );

    const dstTextureDevice = dstMismatched ? t.mismatchedDevice : t.device;
    const dstTexture = t.trackForCleanup(
      dstTextureDevice.createTexture({
        size,
        format,
        usage: GPUTextureUsage.COPY_DST,
      })
    );

    t.testCopyTextureToTexture(
      { texture: srcTexture },
      { texture: dstTexture },
      { width: 1, height: 1, depthOrArrayLayers: 1 },
      srcMismatched || dstMismatched ? 'FinishError' : 'Success'
    );
  });

g.test('mipmap_level')
  .desc(
    `
Test copyTextureToTexture must specify mipLevels that are in range.
- for various dimensions
- for various mip level count in the texture
- for various copy target mip level (in range and not in range)
`
  )
  .params(u =>
    u //
      .combine('dimension', kTextureDimensions)
      .beginSubcases()
      .combineWithParams([
        { srcLevelCount: 1, dstLevelCount: 1, srcCopyLevel: 0, dstCopyLevel: 0 },
        { srcLevelCount: 1, dstLevelCount: 1, srcCopyLevel: 1, dstCopyLevel: 0 },
        { srcLevelCount: 1, dstLevelCount: 1, srcCopyLevel: 0, dstCopyLevel: 1 },
        { srcLevelCount: 3, dstLevelCount: 3, srcCopyLevel: 0, dstCopyLevel: 0 },
        { srcLevelCount: 3, dstLevelCount: 3, srcCopyLevel: 2, dstCopyLevel: 0 },
        { srcLevelCount: 3, dstLevelCount: 3, srcCopyLevel: 3, dstCopyLevel: 0 },
        { srcLevelCount: 3, dstLevelCount: 3, srcCopyLevel: 0, dstCopyLevel: 2 },
        { srcLevelCount: 3, dstLevelCount: 3, srcCopyLevel: 0, dstCopyLevel: 3 },
      ] as const)
      .unless(p => p.dimension === '1d' && (p.srcLevelCount !== 1 || p.dstLevelCount !== 1))
  )

  .fn(t => {
    const { srcLevelCount, dstLevelCount, srcCopyLevel, dstCopyLevel, dimension } = t.params;

    const srcTexture = t.createTextureTracked({
      size: { width: 32, height: 1, depthOrArrayLayers: 1 },
      dimension,
      format: 'rgba8unorm',
      usage: GPUTextureUsage.COPY_SRC,
      mipLevelCount: srcLevelCount,
    });
    const dstTexture = t.createTextureTracked({
      size: { width: 32, height: 1, depthOrArrayLayers: 1 },
      dimension,
      format: 'rgba8unorm',
      usage: GPUTextureUsage.COPY_DST,
      mipLevelCount: dstLevelCount,
    });

    const isSuccess = srcCopyLevel < srcLevelCount && dstCopyLevel < dstLevelCount;
    t.testCopyTextureToTexture(
      { texture: srcTexture, mipLevel: srcCopyLevel },
      { texture: dstTexture, mipLevel: dstCopyLevel },
      { width: 1, height: 1, depthOrArrayLayers: 1 },
      isSuccess ? 'Success' : 'FinishError'
    );
  });

g.test('texture_usage')
  .desc(
    `
Test that copyTextureToTexture source/destination need COPY_SRC/COPY_DST usages.
- for all possible source texture usages
- for all possible destination texture usages
`
  )
  .paramsSubcasesOnly(u =>
    u //
      .combine('srcUsage', kTextureUsages)
      .combine('dstUsage', kTextureUsages)
  )
  .fn(t => {
    const { srcUsage, dstUsage } = t.params;

    const srcTexture = t.createTextureTracked({
      size: { width: 4, height: 4, depthOrArrayLayers: 1 },
      format: 'rgba8unorm',
      usage: srcUsage,
    });
    const dstTexture = t.createTextureTracked({
      size: { width: 4, height: 4, depthOrArrayLayers: 1 },
      format: 'rgba8unorm',
      usage: dstUsage,
    });

    const isSuccess =
      srcUsage === GPUTextureUsage.COPY_SRC && dstUsage === GPUTextureUsage.COPY_DST;

    t.testCopyTextureToTexture(
      { texture: srcTexture },
      { texture: dstTexture },
      { width: 1, height: 1, depthOrArrayLayers: 1 },
      isSuccess ? 'Success' : 'FinishError'
    );
  });

g.test('sample_count')
  .desc(
    `
Test that textures in copyTextureToTexture must have the same sample count.
- for various source texture sample count
- for various destination texture sample count
`
  )
  .paramsSubcasesOnly(u =>
    u //
      .combine('srcSampleCount', [1, 4])
      .combine('dstSampleCount', [1, 4])
  )
  .beforeAllSubcases(t => {
    t.skipIf(
      t.isCompatibility && (t.params.srcSampleCount !== 1 || t.params.dstSampleCount !== 1),
      'multisample textures are not copyable in compatibility mode'
    );
  })
  .fn(t => {
    const { srcSampleCount, dstSampleCount } = t.params;

    const srcTexture = t.createTextureTracked({
      size: { width: 4, height: 4, depthOrArrayLayers: 1 },
      format: 'rgba8unorm',
      usage: GPUTextureUsage.COPY_SRC | GPUTextureUsage.RENDER_ATTACHMENT,
      sampleCount: srcSampleCount,
    });
    const dstTexture = t.createTextureTracked({
      size: { width: 4, height: 4, depthOrArrayLayers: 1 },
      format: 'rgba8unorm',
      usage: GPUTextureUsage.COPY_DST | GPUTextureUsage.RENDER_ATTACHMENT,
      sampleCount: dstSampleCount,
    });

    const isSuccess = srcSampleCount === dstSampleCount;
    t.testCopyTextureToTexture(
      { texture: srcTexture },
      { texture: dstTexture },
      { width: 4, height: 4, depthOrArrayLayers: 1 },
      isSuccess ? 'Success' : 'FinishError'
    );
  });

g.test('multisampled_copy_restrictions')
  .desc(
    `
Test that copyTextureToTexture of multisampled texture must copy a whole subresource to a whole subresource.
- for various origin for the source and destination of the copies.

Note: this is only tested for 2D textures as it is the only dimension compatible with multisampling.
TODO: Check the source and destination constraints separately.
`
  )
  .paramsSubcasesOnly(u =>
    u //
      .combine('srcCopyOrigin', [
        { x: 0, y: 0, z: 0 },
        { x: 1, y: 0, z: 0 },
        { x: 0, y: 1, z: 0 },
        { x: 1, y: 1, z: 0 },
      ])
      .combine('dstCopyOrigin', [
        { x: 0, y: 0, z: 0 },
        { x: 1, y: 0, z: 0 },
        { x: 0, y: 1, z: 0 },
        { x: 1, y: 1, z: 0 },
      ])
      .expand('copyWidth', p => [32 - Math.max(p.srcCopyOrigin.x, p.dstCopyOrigin.x), 16])
      .expand('copyHeight', p => [16 - Math.max(p.srcCopyOrigin.y, p.dstCopyOrigin.y), 8])
  )
  .beforeAllSubcases(t => {
    t.skipIf(t.isCompatibility, 'multisample textures are not copyable in compatibility mode');
  })
  .fn(t => {
    const { srcCopyOrigin, dstCopyOrigin, copyWidth, copyHeight } = t.params;

    const kWidth = 32;
    const kHeight = 16;

    // Currently we don't support multisampled 2D array textures and the mipmap level count of the
    // multisampled textures must be 1.
    const srcTexture = t.createTextureTracked({
      size: { width: kWidth, height: kHeight, depthOrArrayLayers: 1 },
      format: 'rgba8unorm',
      usage: GPUTextureUsage.COPY_SRC | GPUTextureUsage.RENDER_ATTACHMENT,
      sampleCount: 4,
    });
    const dstTexture = t.createTextureTracked({
      size: { width: kWidth, height: kHeight, depthOrArrayLayers: 1 },
      format: 'rgba8unorm',
      usage: GPUTextureUsage.COPY_DST | GPUTextureUsage.RENDER_ATTACHMENT,
      sampleCount: 4,
    });

    const isSuccess = copyWidth === kWidth && copyHeight === kHeight;
    t.testCopyTextureToTexture(
      { texture: srcTexture, origin: srcCopyOrigin },
      { texture: dstTexture, origin: dstCopyOrigin },
      { width: copyWidth, height: copyHeight, depthOrArrayLayers: 1 },
      isSuccess ? 'Success' : 'FinishError'
    );
  });

g.test('texture_format_compatibility')
  .desc(
    `
Test the formats of textures in copyTextureToTexture must be copy-compatible.
- for all source texture formats
- for all destination texture formats
`
  )
  .params(u =>
    u
      .combine('srcFormat', kAllTextureFormats)
      .filter(t => canCopyFromAllAspectsOfTextureFormat(t.srcFormat))
      .combine('dstFormat', kAllTextureFormats)
      .filter(t => canCopyToAllAspectsOfTextureFormat(t.dstFormat))
      .filter(t => {
        const srcInfo = getBlockInfoForTextureFormat(t.srcFormat);
        const dstInfo = getBlockInfoForTextureFormat(t.dstFormat);
        return (
          srcInfo.blockWidth === dstInfo.blockWidth && srcInfo.blockHeight === dstInfo.blockHeight
        );
      })
  )
  .fn(t => {
    const { srcFormat, dstFormat } = t.params;

    t.skipIfTextureFormatNotSupported(srcFormat, dstFormat);
    t.skipIfCopyTextureToTextureNotSupportedForFormat(srcFormat, dstFormat);

    const srcFormatInfo = getBlockInfoForTextureFormat(srcFormat);
    const dstFormatInfo = getBlockInfoForTextureFormat(dstFormat);

    const textureSize = {
      width: lcm(srcFormatInfo.blockWidth, dstFormatInfo.blockWidth),
      height: lcm(srcFormatInfo.blockHeight, dstFormatInfo.blockHeight),
      depthOrArrayLayers: 1,
    };

    const srcTexture = t.createTextureTracked({
      size: textureSize,
      format: srcFormat,
      usage: GPUTextureUsage.COPY_SRC,
    });

    const dstTexture = t.createTextureTracked({
      size: textureSize,
      format: dstFormat,
      usage: GPUTextureUsage.COPY_DST,
    });

    // Allow copy between compatible format textures.
    const srcBaseFormat =
      getBaseFormatForTextureFormat(srcFormat as ColorTextureFormat) ?? srcFormat;
    const dstBaseFormat =
      getBaseFormatForTextureFormat(dstFormat as ColorTextureFormat) ?? dstFormat;
    const isSuccess = srcBaseFormat === dstBaseFormat;

    t.testCopyTextureToTexture(
      { texture: srcTexture },
      { texture: dstTexture },
      textureSize,
      isSuccess ? 'Success' : 'FinishError'
    );
  });

g.test('depth_stencil_copy_restrictions')
  .desc(
    `
Test that depth textures subresources must be entirely copied in copyTextureToTexture
- for various depth-stencil formats
- for various copy origin and size offsets
- for various source and destination texture sizes
- for various source and destination mip levels

Note: this is only tested for 2D textures as it is the only dimension compatible with depth-stencil.
`
  )
  .params(u =>
    u
      .combine('format', kDepthStencilFormats)
      .beginSubcases()
      .combine('copyBoxOffsets', [
        { x: 0, y: 0, width: 0, height: 0 },
        { x: 1, y: 0, width: 0, height: 0 },
        { x: 0, y: 1, width: 0, height: 0 },
        { x: 0, y: 0, width: -1, height: 0 },
        { x: 0, y: 0, width: 0, height: -1 },
      ])
      .combine('srcTextureSize', [
        { width: 64, height: 64, depthOrArrayLayers: 1 },
        { width: 64, height: 32, depthOrArrayLayers: 1 },
        { width: 32, height: 32, depthOrArrayLayers: 1 },
      ])
      .combine('dstTextureSize', [
        { width: 64, height: 64, depthOrArrayLayers: 1 },
        { width: 64, height: 32, depthOrArrayLayers: 1 },
        { width: 32, height: 32, depthOrArrayLayers: 1 },
      ])
      .combine('srcCopyLevel', [1, 2])
      .combine('dstCopyLevel', [0, 1])
  )
  .fn(t => {
    const { format, copyBoxOffsets, srcTextureSize, dstTextureSize, srcCopyLevel, dstCopyLevel } =
      t.params;
    t.skipIfTextureFormatNotSupported(format);
    const kMipLevelCount = 3;

    const srcTexture = t.createTextureTracked({
      size: { width: srcTextureSize.width, height: srcTextureSize.height, depthOrArrayLayers: 1 },
      format,
      mipLevelCount: kMipLevelCount,
      usage: GPUTextureUsage.COPY_SRC,
    });
    const dstTexture = t.createTextureTracked({
      size: { width: dstTextureSize.width, height: dstTextureSize.height, depthOrArrayLayers: 1 },
      format,
      mipLevelCount: kMipLevelCount,
      usage: GPUTextureUsage.COPY_DST,
    });

    const srcSizeAtLevel = t.getPhysicalSubresourceSize('2d', srcTextureSize, format, srcCopyLevel);
    const dstSizeAtLevel = t.getPhysicalSubresourceSize('2d', dstTextureSize, format, dstCopyLevel);

    const copyOrigin = { x: copyBoxOffsets.x, y: copyBoxOffsets.y, z: 0 };

    const copyWidth =
      Math.min(srcSizeAtLevel.width, dstSizeAtLevel.width) + copyBoxOffsets.width - copyOrigin.x;
    const copyHeight =
      Math.min(srcSizeAtLevel.height, dstSizeAtLevel.height) + copyBoxOffsets.height - copyOrigin.y;

    // Depth/stencil copies must copy whole subresources.
    const isSuccess =
      copyOrigin.x === 0 &&
      copyOrigin.y === 0 &&
      copyWidth === srcSizeAtLevel.width &&
      copyHeight === srcSizeAtLevel.height &&
      copyWidth === dstSizeAtLevel.width &&
      copyHeight === dstSizeAtLevel.height;
    t.testCopyTextureToTexture(
      { texture: srcTexture, origin: { x: 0, y: 0, z: 0 }, mipLevel: srcCopyLevel },
      { texture: dstTexture, origin: copyOrigin, mipLevel: dstCopyLevel },
      { width: copyWidth, height: copyHeight, depthOrArrayLayers: 1 },
      isSuccess ? 'Success' : 'FinishError'
    );
    t.testCopyTextureToTexture(
      { texture: srcTexture, origin: copyOrigin, mipLevel: srcCopyLevel },
      { texture: dstTexture, origin: { x: 0, y: 0, z: 0 }, mipLevel: dstCopyLevel },
      { width: copyWidth, height: copyHeight, depthOrArrayLayers: 1 },
      isSuccess ? 'Success' : 'FinishError'
    );
  });

g.test('copy_ranges')
  .desc(
    `
Test that copyTextureToTexture copy boxes must be in range of the subresource.
- for various dimensions
- for various offsets to a full copy for the copy origin/size
- for various copy mip levels
`
  )
  .params(u =>
    u
      .combine('dimension', kTextureDimensions)
      //.beginSubcases()
      .combine('copyBoxOffsets', [
        { x: 0, y: 0, z: 0, width: 0, height: 0, depthOrArrayLayers: -2 },
        { x: 1, y: 0, z: 0, width: 0, height: 0, depthOrArrayLayers: -2 },
        { x: 1, y: 0, z: 0, width: -1, height: 0, depthOrArrayLayers: -2 },
        { x: 0, y: 1, z: 0, width: 0, height: 0, depthOrArrayLayers: -2 },
        { x: 0, y: 1, z: 0, width: 0, height: -1, depthOrArrayLayers: -2 },
        { x: 0, y: 0, z: 1, width: 0, height: 1, depthOrArrayLayers: -2 },
        { x: 0, y: 0, z: 2, width: 0, height: 1, depthOrArrayLayers: 0 },
        { x: 0, y: 0, z: 0, width: 1, height: 0, depthOrArrayLayers: -2 },
        { x: 0, y: 0, z: 0, width: 0, height: 1, depthOrArrayLayers: -2 },
        { x: 0, y: 0, z: 0, width: 0, height: 0, depthOrArrayLayers: 1 },
        { x: 0, y: 0, z: 0, width: 0, height: 0, depthOrArrayLayers: 0 },
        { x: 0, y: 0, z: 1, width: 0, height: 0, depthOrArrayLayers: -1 },
        { x: 0, y: 0, z: 2, width: 0, height: 0, depthOrArrayLayers: -1 },
      ])
      .unless(
        p =>
          p.dimension === '1d' &&
          (p.copyBoxOffsets.y !== 0 ||
            p.copyBoxOffsets.z !== 0 ||
            p.copyBoxOffsets.height !== 0 ||
            p.copyBoxOffsets.depthOrArrayLayers !== 0)
      )
      .combine('srcCopyLevel', [0, 1, 3])
      .combine('dstCopyLevel', [0, 1, 3])
      .unless(p => p.dimension === '1d' && (p.srcCopyLevel !== 0 || p.dstCopyLevel !== 0))
  )
  .fn(t => {
    const { dimension, copyBoxOffsets, srcCopyLevel, dstCopyLevel } = t.params;

    const textureSize = { width: 16, height: 8, depthOrArrayLayers: 3 };
    let mipLevelCount = 4;
    if (dimension === '1d') {
      mipLevelCount = 1;
      textureSize.height = 1;
      textureSize.depthOrArrayLayers = 1;
    }
    const kFormat = 'rgba8unorm';

    const srcTexture = t.createTextureTracked({
      size: textureSize,
      format: kFormat,
      dimension,
      mipLevelCount,
      usage: GPUTextureUsage.COPY_SRC,
    });
    const dstTexture = t.createTextureTracked({
      size: textureSize,
      format: kFormat,
      dimension,
      mipLevelCount,
      usage: GPUTextureUsage.COPY_DST,
    });

    const srcSizeAtLevel = t.getPhysicalSubresourceSize(
      dimension,
      textureSize,
      kFormat,
      srcCopyLevel
    );
    const dstSizeAtLevel = t.getPhysicalSubresourceSize(
      dimension,
      textureSize,
      kFormat,
      dstCopyLevel
    );

    const copyOrigin = { x: copyBoxOffsets.x, y: copyBoxOffsets.y, z: copyBoxOffsets.z };

    const copyWidth = Math.max(
      Math.min(srcSizeAtLevel.width, dstSizeAtLevel.width) + copyBoxOffsets.width - copyOrigin.x,
      0
    );
    const copyHeight = Math.max(
      Math.min(srcSizeAtLevel.height, dstSizeAtLevel.height) + copyBoxOffsets.height - copyOrigin.y,
      0
    );
    const copyDepth =
      textureSize.depthOrArrayLayers + copyBoxOffsets.depthOrArrayLayers - copyOrigin.z;

    {
      let isSuccess =
        copyWidth <= srcSizeAtLevel.width &&
        copyHeight <= srcSizeAtLevel.height &&
        copyOrigin.x + copyWidth <= dstSizeAtLevel.width &&
        copyOrigin.y + copyHeight <= dstSizeAtLevel.height;

      if (dimension === '3d') {
        isSuccess =
          isSuccess &&
          copyDepth <= srcSizeAtLevel.depthOrArrayLayers &&
          copyOrigin.z + copyDepth <= dstSizeAtLevel.depthOrArrayLayers;
      } else {
        isSuccess =
          isSuccess &&
          copyDepth <= textureSize.depthOrArrayLayers &&
          copyOrigin.z + copyDepth <= textureSize.depthOrArrayLayers;
      }

      t.testCopyTextureToTexture(
        { texture: srcTexture, origin: { x: 0, y: 0, z: 0 }, mipLevel: srcCopyLevel },
        { texture: dstTexture, origin: copyOrigin, mipLevel: dstCopyLevel },
        { width: copyWidth, height: copyHeight, depthOrArrayLayers: copyDepth },
        isSuccess ? 'Success' : 'FinishError'
      );
    }

    {
      let isSuccess =
        copyOrigin.x + copyWidth <= srcSizeAtLevel.width &&
        copyOrigin.y + copyHeight <= srcSizeAtLevel.height &&
        copyWidth <= dstSizeAtLevel.width &&
        copyHeight <= dstSizeAtLevel.height;

      if (dimension === '3d') {
        isSuccess =
          isSuccess &&
          copyDepth <= dstSizeAtLevel.depthOrArrayLayers &&
          copyOrigin.z + copyDepth <= srcSizeAtLevel.depthOrArrayLayers;
      } else {
        isSuccess =
          isSuccess &&
          copyDepth <= textureSize.depthOrArrayLayers &&
          copyOrigin.z + copyDepth <= textureSize.depthOrArrayLayers;
      }

      t.testCopyTextureToTexture(
        { texture: srcTexture, origin: copyOrigin, mipLevel: srcCopyLevel },
        { texture: dstTexture, origin: { x: 0, y: 0, z: 0 }, mipLevel: dstCopyLevel },
        { width: copyWidth, height: copyHeight, depthOrArrayLayers: copyDepth },
        isSuccess ? 'Success' : 'FinishError'
      );
    }
  });

g.test('copy_within_same_texture')
  .desc(
    `
Test that it is an error to use copyTextureToTexture from one subresource to itself.
- for various starting source/destination array layers.
- for various copy sizes in number of array layers

TODO: Extend to check the copy is allowed between different mip levels.
TODO: Extend to 1D and 3D textures.`
  )
  .paramsSubcasesOnly(u =>
    u //
      .combine('srcCopyOriginZ', [0, 2, 4])
      .combine('dstCopyOriginZ', [0, 2, 4])
      .combine('copyExtentDepth', [1, 2, 3])
  )
  .fn(t => {
    const { srcCopyOriginZ, dstCopyOriginZ, copyExtentDepth } = t.params;

    const kArrayLayerCount = 7;

    const testTexture = t.createTextureTracked({
      size: { width: 16, height: 16, depthOrArrayLayers: kArrayLayerCount },
      format: 'rgba8unorm',
      usage: GPUTextureUsage.COPY_SRC | GPUTextureUsage.COPY_DST,
    });

    const isSuccess =
      Math.min(srcCopyOriginZ, dstCopyOriginZ) + copyExtentDepth <=
      Math.max(srcCopyOriginZ, dstCopyOriginZ);
    t.testCopyTextureToTexture(
      { texture: testTexture, origin: { x: 0, y: 0, z: srcCopyOriginZ } },
      { texture: testTexture, origin: { x: 0, y: 0, z: dstCopyOriginZ } },
      { width: 16, height: 16, depthOrArrayLayers: copyExtentDepth },
      isSuccess ? 'Success' : 'FinishError'
    );
  });

g.test('copy_aspects')
  .desc(
    `
Test the validations on the member 'aspect' of GPUTexelCopyTextureInfo in CopyTextureToTexture().
- for all the color and depth-stencil formats: the texture copy aspects must be both 'all'.
- for all the depth-only formats: the texture copy aspects must be either 'all' or 'depth-only'.
- for all the stencil-only formats: the texture copy aspects must be either 'all' or 'stencil-only'.
`
  )
  .params(u =>
    u
      .combine('format', ['rgba8unorm', ...kDepthStencilFormats] as const)
      .beginSubcases()
      .combine('sourceAspect', ['all', 'depth-only', 'stencil-only'] as const)
      .combine('destinationAspect', ['all', 'depth-only', 'stencil-only'] as const)
  )
  .fn(t => {
    const { format, sourceAspect, destinationAspect } = t.params;
    t.skipIfTextureFormatNotSupported(format);

    const kTextureSize = { width: 16, height: 8, depthOrArrayLayers: 1 };

    const srcTexture = t.createTextureTracked({
      size: kTextureSize,
      format,
      usage: GPUTextureUsage.COPY_SRC,
    });
    const dstTexture = t.createTextureTracked({
      size: kTextureSize,
      format,
      usage: GPUTextureUsage.COPY_DST,
    });

    // MAINTENANCE_TODO: get the valid aspects from capability_info.ts.
    const kValidAspectsForFormat = {
      rgba8unorm: ['all'],

      // kUnsizedDepthStencilFormats
      depth24plus: ['all', 'depth-only'],
      'depth24plus-stencil8': ['all'],
      'depth32float-stencil8': ['all'],

      // kSizedDepthStencilFormats
      depth32float: ['all', 'depth-only'],
      stencil8: ['all', 'stencil-only'],
      depth16unorm: ['all', 'depth-only'],
    };

    const isSourceAspectValid = kValidAspectsForFormat[format].includes(sourceAspect);
    const isDestinationAspectValid = kValidAspectsForFormat[format].includes(destinationAspect);

    t.testCopyTextureToTexture(
      { texture: srcTexture, origin: { x: 0, y: 0, z: 0 }, aspect: sourceAspect },
      { texture: dstTexture, origin: { x: 0, y: 0, z: 0 }, aspect: destinationAspect },
      kTextureSize,
      isSourceAspectValid && isDestinationAspectValid ? 'Success' : 'FinishError'
    );
  });

g.test('copy_ranges_with_compressed_texture_formats')
  .desc(
    `
Test that copyTextureToTexture copy boxes must be in range of the subresource and aligned to the block size
- for various dimensions
- for various offsets to a full copy for the copy origin/size
- for various copy mip levels

TODO: Express the offsets in "block size" so as to be able to test non-4x4 compressed formats
`
  )
  .params(u =>
    u
      .combine('format', kCompressedTextureFormats)
      .combine('dimension', kTextureDimensions)
      .filter(({ dimension, format }) =>
        textureFormatAndDimensionPossiblyCompatible(dimension, format)
      )
      .beginSubcases()
      .combine('copyBoxOffsets', [
        { x: 0, y: 0, z: 0, width: 0, height: 0, depthOrArrayLayers: -2 },
        { x: 1, y: 0, z: 0, width: 0, height: 0, depthOrArrayLayers: -2 },
        { x: 4, y: 0, z: 0, width: 0, height: 0, depthOrArrayLayers: -2 },
        { x: 0, y: 0, z: 0, width: -1, height: 0, depthOrArrayLayers: -2 },
        { x: 0, y: 0, z: 0, width: -4, height: 0, depthOrArrayLayers: -2 },
        { x: 0, y: 1, z: 0, width: 0, height: 0, depthOrArrayLayers: -2 },
        { x: 0, y: 4, z: 0, width: 0, height: 0, depthOrArrayLayers: -2 },
        { x: 0, y: 0, z: 0, width: 0, height: -1, depthOrArrayLayers: -2 },
        { x: 0, y: 0, z: 0, width: 0, height: -4, depthOrArrayLayers: -2 },
        { x: 0, y: 0, z: 0, width: 0, height: 0, depthOrArrayLayers: 0 },
        { x: 0, y: 0, z: 1, width: 0, height: 0, depthOrArrayLayers: -1 },
      ])
      .combine('srcCopyLevel', [0, 1, 2])
      .combine('dstCopyLevel', [0, 1, 2])
  )
  .fn(t => {
    const { format, dimension, copyBoxOffsets, srcCopyLevel, dstCopyLevel } = t.params;

    t.skipIfTextureFormatNotSupported(format);
    t.skipIfTextureFormatAndDimensionNotCompatible(format, dimension);
    t.skipIfCopyTextureToTextureNotSupportedForFormat(format);

    const { blockWidth, blockHeight } = getBlockInfoForTextureFormat(format);

    const kTextureSize = {
      width: 15 * blockWidth,
      height: 12 * blockHeight,
      depthOrArrayLayers: 3,
    };
    const kMipLevelCount = 4;

    const srcTexture = t.createTextureTracked({
      size: kTextureSize,
      format,
      dimension,
      mipLevelCount: kMipLevelCount,
      usage: GPUTextureUsage.COPY_SRC,
    });
    const dstTexture = t.createTextureTracked({
      size: kTextureSize,
      format,
      dimension,
      mipLevelCount: kMipLevelCount,
      usage: GPUTextureUsage.COPY_DST,
    });

    const srcSizeAtLevel = t.getPhysicalSubresourceSize(
      dimension,
      kTextureSize,
      format,
      srcCopyLevel
    );
    const dstSizeAtLevel = t.getPhysicalSubresourceSize(
      dimension,
      kTextureSize,
      format,
      dstCopyLevel
    );

    const copyOrigin = { x: copyBoxOffsets.x, y: copyBoxOffsets.y, z: copyBoxOffsets.z };

    const copyWidth = Math.max(
      Math.min(srcSizeAtLevel.width, dstSizeAtLevel.width) + copyBoxOffsets.width - copyOrigin.x,
      0
    );
    const copyHeight = Math.max(
      Math.min(srcSizeAtLevel.height, dstSizeAtLevel.height) + copyBoxOffsets.height - copyOrigin.y,
      0
    );
    const copyDepth = Math.max(
      Math.min(srcSizeAtLevel.depthOrArrayLayers, dstSizeAtLevel.depthOrArrayLayers) +
        copyBoxOffsets.depthOrArrayLayers -
        copyOrigin.z,
      0
    );

    const isSuccessForCompressedFormats =
      copyOrigin.x % blockWidth === 0 &&
      copyOrigin.y % blockHeight === 0 &&
      copyWidth % blockWidth === 0 &&
      copyHeight % blockHeight === 0;

    {
      const isSuccess =
        isSuccessForCompressedFormats &&
        copyWidth <= srcSizeAtLevel.width &&
        copyHeight <= srcSizeAtLevel.height &&
        copyOrigin.x + copyWidth <= dstSizeAtLevel.width &&
        copyOrigin.y + copyHeight <= dstSizeAtLevel.height &&
        copyOrigin.z + copyDepth <= kTextureSize.depthOrArrayLayers;

      t.testCopyTextureToTexture(
        { texture: srcTexture, origin: { x: 0, y: 0, z: 0 }, mipLevel: srcCopyLevel },
        { texture: dstTexture, origin: copyOrigin, mipLevel: dstCopyLevel },
        { width: copyWidth, height: copyHeight, depthOrArrayLayers: copyDepth },
        isSuccess ? 'Success' : 'FinishError'
      );
    }

    {
      const isSuccess =
        isSuccessForCompressedFormats &&
        copyOrigin.x + copyWidth <= srcSizeAtLevel.width &&
        copyOrigin.y + copyHeight <= srcSizeAtLevel.height &&
        copyWidth <= dstSizeAtLevel.width &&
        copyHeight <= dstSizeAtLevel.height &&
        copyOrigin.z + copyDepth <= kTextureSize.depthOrArrayLayers;

      t.testCopyTextureToTexture(
        { texture: srcTexture, origin: copyOrigin, mipLevel: srcCopyLevel },
        { texture: dstTexture, origin: { x: 0, y: 0, z: 0 }, mipLevel: dstCopyLevel },
        { width: copyWidth, height: copyHeight, depthOrArrayLayers: copyDepth },
        isSuccess ? 'Success' : 'FinishError'
      );
    }
  });
